Copper‑exchanged Y zeolites for gasoline deep‑desulfurization

Copper‑exchanged Y zeolites for gasoline deep‑desulfurization

Título alternativo Copper‑exchanged Y zeolites for gasoline deep‑desulfurization
Autor Cerutti, Myriam L. M. Navarro Google Scholar
Hackbarth, Fabíola V. Google Scholar
Maass, Danielle Autor UNIFESP Google Scholar
Chiaro, Sandra S. X. Google Scholar
Pinto, Ricardo R. C. Google Scholar
Cardoso, Mauri J. B. Google Scholar
Arroyo, Pedro A. Google Scholar
Souza, Antonio A. Ulson de Google Scholar
Souza, Selene M. A. G. Ulson de Google Scholar
Resumo Adsorptive desulfurization is one of the most efficient methods to remove recalcitrant sulfur compounds from transportation fuels. Two π-complexation-based sorbents were studied for desulfurization of synthetic gasoline. The sorbents were obtained by ion exchanging Y zeolites with copper cations using different techniques, which includes liquid phase ion exchange (CuY1) and vapor phase ion exchange (CuY2). Preliminary kinetic and equilibrium experiments for sulfur adsorption in batch system showed that CuY1 has the greatest desulfurization capacity and selectivity. The best adsorbent, CuY1 pellet, had a dynamic adsorption and equilibrium capacity of 2.97 and 4.14 mg S/g for fixed bed column assays, respectively. Experimental data obtained to batch reactor and packed bed column have been interpreted by means of a pore diffusion model in which the mass balance to the pellets are emphasized. The model proposed was able to fit well to the experimental data. After the first thermal regeneration, the copper ion-exchanged zeolite presented a maximum recovery of 91.5%. The copper-exchanged zeolite (in pellet form) has shown good uptake rate and regenerability for desulfurization of synthetic gasoline.
Assunto Desulfurization
Fixed-bed column
Sulfur
Synthetic gasoline
Zeolite
Cobertura Londres, Reino Unido
Idioma Inglês
Financiador Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
Número do financiamento #2019/07659-4
Data 2019-07-25
ISSN 0929-5607 (Sherpa/Romeo)
Editor Springer Nature
Extensão 1595–1609
Fonte https://link.springer.com/article/10.1007/s10450-019-00153-y
Direito de acesso Acesso restrito
Tipo Artigo
URI https://repositorio.unifesp.br/handle/11600/60838

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